Sheet Metal Fabrication in Medical Industry
The applications of metal fabrication in industries like structural steel construction are well-known. However, metal equipment and devices are an integral part of any industry, and the medical industry is no exception. The medical diagnostic industry, in particular, enables extensive use of metal and pipe fabrication technology to manufacture many of the machines and products used in diagnosis of ailments and diseases. Metal fabrication technology is considered so important to the medical industry, such that lack of fabrication will cause this industry to come to a standstill. So, what are the major applications and benefits of metal fabrication in the medical industry? Let’s find out in this blog.
Scanning and Imaging Machines
Scanning and imaging machines are essential in the diagnostic industry for medical professionals to perform accurate tests and to make correct diagnoses. Some of the applications of metal fabrication in this regard are as follows: –
Ultrasound machine: This diagnostic scanning machine is utilized to view and study internal organs, as well as to detect objects. The precise calibrations achieved with the help of sheet metal fabrication help with the manufacture of high-quality ultrasound machines which can effectively diagnose diseases and illnesses.
MRI equipment: MRI or Magnetic Resonance Imaging equipment uses radio waves and strong magnetic fields to capture the human anatomy in images. An MRI scanning machine uses magnets to scan the body via a non-invasive procedure. Stainless fabricated products are effectively used in the manufacture of MRI scan machines.
Image Reconstruction System: IRS or Image Reconstruction System uses mathematical equations to manipulate digitized information received during body scans. With the help of these results, surgeons are able to reconstruct many body parts, including the knees, heart and breasts. A finely calibrated machine could be used for this system and this can be created with the help of stainless-steel fabrication.
Medical imaging equipment: PET scanning machines, CT scan machines, spectrometry scan equipment — all these and many more find their roots in sheet metal fabrication. It is used to manufacture the highest quality stainless steel and aluminum equipment for the medical industry. Each of these scanning machines is made under strict statistical process control specifications to maintain their accuracy and efficiency.
Other Applications
Apart from scanning and imaging, a variety of systems and machines also leverage machine fabrication as follows: –
Nuclear medicine cabinets: Stainless steel fabrication is used to make nuclear medicine cabinets. These are used to prevent patient exposure to hazardous waste. This is accomplished by ensuring that the cabinets are encased in the lead with a stainless-steel outer body. These cabinets are generally manufactured on a circular chute with a 4-inch diameter, which allows the doctors and other medical practitioners to conveniently and effectively dispose of hazardous medical waste.
Ablation system: Ablation therapy is a minimally invasive procedure which is used destroy abnormal tissues with the help of laser cutting, heat or extreme cold. Surgeons and doctors generally rely on these systems for the treatment of abnormal heartbeat and kidney stones. Precision is the most critical factor for this procedure; hence sheet metal fabrication is used to create medical products for ablation treatment.
Control system solutions: These are the automated machine products which are leveraged in various medical applications. They mainly consist of sensitive levers, switches and sensors. Sheet metal and stainless-steel fabrication help to create finely calibrated dimensions which can be used in this medical equipment. This type of fabrication makes the equipment more reliable and durable.
Final Thoughts
The usage of metal fabrication in medicine and diagnostics is growing every day. Even something as basic as ultrasound (which is used for analysis of human anatomy) makes use of metal fabrication. This ubiquity may give rise to potentially more sophisticated machines which focus on precision and accuracy – this will tie in with the future of medicine!